---
title: How to define a target function to evaluate
sidebarTitle: Define a target function to evaluate
---

There are three main pieces need to run an evaluation:

1. A [dataset](/langsmith/evaluation-concepts#datasets) of test inputs and expected outputs.
2. A target function which is what you're evaluating.
3. [Evaluators](/langsmith/evaluation-concepts#evaluators) that score your target function's outputs.

This guide shows you how to define the target function depending on the part of your application you are evaluating. See here for [how to create a dataset](/langsmith/manage-datasets-programmatically) and [how to define evaluators](/langsmith/code-evaluator), and here for an [end-to-end example of running an evaluation](/langsmith/evaluate-llm-application).

## Target function signature

In order to evaluate an application in code, we need a way to run the application. When using `evaluate()` ([Python](https://docs.smith.langchain.com/reference/python/client/langsmith.client.Client#langsmith.client.Client.evaluate)/[TypeScript](https://docs.smith.langchain.com/reference/js/functions/evaluation.evaluate))we'll do this by passing in a *target function* argument. This is a function that takes in a dataset [Example's](/langsmith/evaluation-concepts#examples) inputs and returns the application output as a dict. Within this function we can call our application however we'd like. We can also format the output however we'd like. The key is that any evaluator functions we define should work with the output format we return in our target function.

```python
from langsmith import Client

# 'inputs' will come from your dataset.
def dummy_target(inputs: dict) -> dict:
    return {"foo": 1, "bar": "two"}

# 'inputs' will come from your dataset.
# 'outputs' will come from your target function.
def evaluator_one(inputs: dict, outputs: dict) -> bool:
    return outputs["foo"] == 2

def evaluator_two(inputs: dict, outputs: dict) -> bool:
    return len(outputs["bar"]) < 3

client = Client()
results = client.evaluate(
    dummy_target,  # <-- target function
    data="your-dataset-name",
    evaluators=[evaluator_one, evaluator_two],
    ...
)
```

<Check>
`evaluate()` will automatically trace your target function. This means that if you run any traceable code within your target function, this will also be traced as child runs of the target trace.
</Check>

## Example: Single LLM call

<CodeGroup>

```python Python
from langsmith import wrappers
from openai import OpenAI

# Optionally wrap the OpenAI client to automatically
# trace all model calls.
oai_client = wrappers.wrap_openai(OpenAI())

def target(inputs: dict) -> dict:
  # This assumes your dataset has inputs with a 'messages' key.
  # You can update to match your dataset schema.
  messages = inputs["messages"]
  response = oai_client.chat.completions.create(
      messages=messages,
      model="gpt-4o-mini",
  )
  return {"answer": response.choices[0].message.content}
```

```typescript TypeScript
import OpenAI from 'openai';
import { wrapOpenAI } from "langsmith/wrappers";

const client = wrapOpenAI(new OpenAI());

// This is the function you will evaluate.
const target = async(inputs) => {
  // This assumes your dataset has inputs with a `messages` key
  const messages = inputs.messages;
  const response = await client.chat.completions.create({
      messages: messages,
      model: 'gpt-4o-mini',
  });
  return { answer: response.choices[0].message.content };
}
```

```python Python (LangChain)
from langchain.chat_models import init_chat_model

llm = init_chat_model("openai:gpt-4o-mini")

def target(inputs: dict) -> dict:
  # This assumes your dataset has inputs with a `messages` key
  messages = inputs["messages"]
  response = llm.invoke(messages)
  return {"answer": response.content}
```

```typescript TypeScript (LangChain)
import { ChatOpenAI } from '@langchain/openai';

// This is the function you will evaluate.
const target = async(inputs) => {
  // This assumes your dataset has inputs with a `messages` key
  const messages = inputs.messages;
  const model = new ChatOpenAI({ model: "gpt-4o-mini" });
  const response = await model.invoke(messages);
  return {"answer": response.content};
}
```

</CodeGroup>

## Example: Non-LLM component

<CodeGroup>

```python Python
from langsmith import traceable

# Optionally decorate with '@traceable' to trace all invocations of this function.
@traceable
def calculator_tool(operation: str, number1: float, number2: float) -> str:
  if operation == "add":
      return str(number1 + number2)
  elif operation == "subtract":
      return str(number1 - number2)
  elif operation == "multiply":
      return str(number1 * number2)
  elif operation == "divide":
      return str(number1 / number2)
  else:
      raise ValueError(f"Unrecognized operation: {operation}.")

# This is the function you will evaluate.
def target(inputs: dict) -> dict:
  # This assumes your dataset has inputs with `operation`, `num1`, and `num2` keys.
  operation = inputs["operation"]
  number1 = inputs["num1"]
  number2 = inputs["num2"]
  result = calculator_tool(operation, number1, number2)
  return {"result": result}
```

```typescript TypeScript
import { traceable } from "langsmith/traceable";

// Optionally wrap in 'traceable' to trace all invocations of this function.
const calculatorTool = traceable(async ({ operation, number1, number2 }) => {
// Functions must return strings
if (operation === "add") {
  return (number1 + number2).toString();
} else if (operation === "subtract") {
  return (number1 - number2).toString();
} else if (operation === "multiply") {
  return (number1 * number2).toString();
} else if (operation === "divide") {
  return (number1 / number2).toString();
} else {
  throw new Error("Invalid operation.");
}
});

// This is the function you will evaluate.
const target = async (inputs) => {
// This assumes your dataset has inputs with `operation`, `num1`, and `num2` keys
const result = await calculatorTool.invoke({
  operation: inputs.operation,
  number1: inputs.num1,
  number2: inputs.num2,
});
return { result };
}
```

</CodeGroup>

## Example: Application or agent

<CodeGroup>

```python Python
from my_agent import agent

      # This is the function you will evaluate.
def target(inputs: dict) -> dict:
  # This assumes your dataset has inputs with a `messages` key
  messages = inputs["messages"]
  # Replace `invoke` with whatever you use to call your agent
  response = agent.invoke({"messages": messages})
  # This assumes your agent output is in the right format
  return response
```

```typescript TypeScript
import { agent } from 'my_agent';

// This is the function you will evaluate.
const target = async(inputs) => {
// This assumes your dataset has inputs with a `messages` key
const messages = inputs.messages;
// Replace `invoke` with whatever you use to call your agent
const response = await agent.invoke({ messages });
// This assumes your agent output is in the right format
return response;
}
```

</CodeGroup>

<Check>
If you have a LangGraph/LangChain agent that accepts the inputs defined in your dataset and that returns the output format you want to use in your evaluators, you can pass that object in as the target directly:

```python
from my_agent import agent
from langsmith import Client
client = Client()
client.evaluate(agent, ...)
```
</Check>
